Microbial composition and bioremediation in frass fertilizers from insect-based agri-food waste valorization
Publication Type
Journal Article
Journal Name
Journal of Environmental Management
Publication Date
6-1-2025
Abstract
Insect frass fertilizer is emerging as a sustainable and novel input for improving soil health and crop production; however, research attention on its safety and microbial properties remains limited. Here, we evaluated the levels of heavy metals, pathogens, diversity, abundance, composition and functional roles of bacteria and fungi in frass fertilizer produced by eight edible insect species. Our results revealed the absence of Salmonella spp. In the frass fertilizers produced by all insect species, while the levels of other pathogens and heavy metals were within permissible limits for organic fertilizers. We found that 79–86 % of the variations in bacterial and fungal communities in the frass fertilizers were influenced by the species of insects used in waste recycling. The highest richness of bacteria and fungi was recorded in the frass fertilizers generated from Oryctes rhinoceros and Pachnoda sinuata. Taxonomic classification revealed 36 bacteria phyla across the frass fertilizers, with most belonging to Firmicutes (43 %), Proteobacteria (23 %), and Actinobacteriota (18 %), whereas the main fungal phyla were Ascomycota (80 %) and Basidiomycota (10 %). Functional profiling revealed that most fungi were sapotroph-symbiotrophs, pathogenic saprotrophs, pathotrophs, and symbiotrophic saprotrophs, which are key in organic matter decomposition, nutrient recycling and pathogen suppression. In contrast, the bacteria were mostly associated with antibiotic and phytohormone production, biosynthesis of plant growth regulators, nitrogen metabolism, nitrification, nitrogen fixation, especially in frass fertilizers derived from P. sinuata, Schistocerca gregaria, and Hermetia illucens. Our findings demonstrate the potential of insects to recycle low-value organic wastes into hygienic organic fertilizer and highlight the role of beneficial microbes, which could be harnessed for bioremediation, sustainable soil health management, improved crop productivity and food security.
Keywords
Beneficial microbes, Edible insects, Entomocomposting, Food security, Regenerative agriculture, Soil health
Recommended Citation
Gómez-Brandón, M., Beesigamukama, D., Probst, M., Klammsteiner, T., Su, J., Zhu, Y., & Tanga, C. (2025). Microbial composition and bioremediation in frass fertilizers from insect-based agri-food waste valorization. Journal of Environmental Management, 386 https://doi.org/10.1016/j.jenvman.2025.125774